CN211570164U - Control system for microwave generator - Google Patents

Abstract

The utility model provides a control system for a microwave generator, which comprises a controller, a low-voltage control module, a power measurement module and a power supply module, wherein the low-voltage control module, the power measurement module and the power supply module are respectively and electrically connected with the controller; the low-voltage control module comprises a power supply control contactor, a first power supply switch, a second power supply switch and an emergency stop switch, the power measurement module is electrically connected with a wire outlet end of a direct-current switch power supply, a mutual inductor port of the power measurement module is electrically connected with a microwave generator, and an output port of the power measurement module is electrically connected with the controller; the controller is electrically connected with the microwave generator. The utility model discloses a power measurement module monitoring microwave generator's behavior, whether the work through low pressure control module control controller is, power module supplies power to controller and power measurement module, and microwave generator's work has been guaranteed to this control system.

Description

Control system for microwave generator

Technical Field

The utility model relates to a river water treatment field especially relates to a control system for microwave generator.

Background

The ecological river channel is a water conservancy project integrating the subjects of modern water conservancy engineering, landscape ecology, environmental science, bioscience, aesthetics and the like, and is a near-natural system which takes the premise of protecting the good living environment of organisms in a river channel system and creating a harmonious natural landscape, fully considers the ecological effect while ensuring flood control safety and transforms a river bank into a water system, a soil system and a biological system which mutually contain the water system, the soil system and the biological system.

The method is characterized in that the water quality of the river channel is required to be improved while the river channel is treated, the water quality of the river channel is improved by adopting a microwave photocatalytic degradation treatment technology, the microwave photocatalytic degradation treatment technology uses microwaves as an excitation source, ultraviolet rays are excited by an ultraviolet lamp, suspension doped with photocatalyst titanium dioxide is irradiated in liquid, the ultraviolet lamp is covered and protected by a quartz tube, air is continuously injected into the inner cavity of the quartz tube, the air overflowing from the quartz tube is communicated with a microporous aeration head through a pipeline, an aeration area is arranged in the lower area inside the reactor, a microwave photocatalytic reaction area is arranged in the upper area inside the reactor, a certain amount of ozone is generated under the direct irradiation of the ultraviolet light, and the generated ozone also plays a direct oxidative degradation role on organic pollutants.

In view of the above, there is a need to provide a control system for a microwave generator to drive the microwave generator to perform harmless treatment on river water.

SUMMERY OF THE UTILITY MODEL

The utility model provides a control system for microwave generator monitors microwave generator's behavior through power measurement module, whether the work through low pressure control module control controller is, and power module supplies power to controller and power measurement module, and microwave generator's work has been guaranteed to this control system.

In order to solve the technical problem, the utility model adopts the following technical scheme:

a control system for a microwave generator comprises a controller, a low-voltage control module, a power measurement module and a power supply module, wherein the low-voltage control module, the power measurement module and the power supply module are respectively and electrically connected with the controller;

the low-voltage control module comprises a power supply control contactor, a first power supply switch, a second power supply switch and an emergency stop switch, wherein a wire connected from a power supply end is connected with the power supply controller in series;

the power supply module comprises a direct-current switching power supply, and an electric wire connected from the direct-current switching power supply is connected with a power terminal of the controller;

the power measurement module is electrically connected with a wire outlet end of the direct-current switch power supply, a mutual inductor port of the power measurement module is electrically connected with the microwave generator, and an output port of the power measurement module is electrically connected with the controller;

the controller is electrically connected with the microwave generator.

As a further improvement, 8 microwave output binding post, 2 cooling blower control terminal, 8 excess temperature protection terminals have on the circuit board of controller, 8 microwave output binding post and 8 excess temperature protection terminal one-to-ones, and 2 cooling blower control terminal are connected with microwave generator's cooling blower electricity, and microwave output binding post is connected with microwave generator electricity.

As a further improvement, the 8 over-temperature protection terminals are electrically connected with the power supply module.

As a further improvement of the present invention, the circuit board of the controller further has a built-in RS-485 terminal, the built-in RS-485 terminal includes an SG terminal, an SDB terminal, an SDA terminal, an RDB terminal and an RDA terminal, the SDB terminal is electrically connected to the RDB terminal, and the SDA terminal is electrically connected to the RDA terminal;

the SG terminal, the SDB terminal, the SDA terminal, the RDB terminal and the RDA terminal are respectively and electrically connected with the low-voltage control module.

As a further improvement of the utility model, still have three power output and two power input ends on the circuit board of controller, two power input ends are connected with the power module electricity, and three power output is connected with the microwave generator electricity.

As a further improvement, two cooling fans of two microwave generators concatenate respectively behind the contactor cooling fan control terminal of electricity connection, microwave generator concatenates respectively behind the contactor electricity connection microwave output binding post.

The utility model has the advantages that:

the utility model discloses a power measurement module monitoring microwave generator's behavior, whether the work through low pressure control module control controller is, power module supplies power to controller and power measurement module, and microwave generator's work has been guaranteed to this control system.

Drawings

FIG. 1 is a schematic diagram of a low voltage control module, a power measurement module, and a power supply module;

fig. 2 is a schematic diagram of a controller.

Detailed Description

The utility model discloses a control system for a microwave generator, which comprises a controller, a low-voltage control module, a power measurement module and a power supply module, wherein the low-voltage control module, the power measurement module and the power supply module are respectively and electrically connected with the controller; the low-voltage control module comprises a power supply control contactor, a first power supply switch, a second power supply switch and an emergency stop switch, wherein a wire connected from a power supply end is connected with the power supply controller in series; the power supply module comprises a direct-current switching power supply, and an electric wire connected from the direct-current switching power supply is connected with a power terminal of the controller; the power measurement module is electrically connected with a wire outlet end of the direct-current switch power supply, a mutual inductor port of the power measurement module is electrically connected with the microwave generator, and an output port of the power measurement module is electrically connected with the controller; the controller is electrically connected with the microwave generator.

The utility model discloses a power measurement module monitoring microwave generator's behavior, whether the work through low pressure control module control controller is, power module supplies power to controller and power measurement module, and microwave generator's work has been guaranteed to this control system.

The first implementation mode comprises the following steps:

as shown in fig. 1, the present embodiment discloses a control system for a microwave generator, which includes a controller, a low voltage control module, a power measurement module, and a power supply module, where the low voltage control module, the power measurement module, and the power supply module are respectively electrically connected to the controller; the low-voltage control module comprises a power supply control contactor, a first power supply switch, a second power supply switch and an emergency stop switch, wherein a wire connected from a power supply end is connected with the power supply controller in series; the power supply module comprises a direct-current switching power supply, and an electric wire connected from the direct-current switching power supply is connected with a power terminal of the controller; the power measurement module is electrically connected with a wire outlet end of the direct-current switch power supply, a mutual inductor port of the power measurement module is electrically connected with the microwave generator, and an output port of the power measurement module is electrically connected with the controller; the controller is electrically connected with the microwave generator.

In the embodiment, the power measurement module is used for monitoring the working condition of the microwave generator, the low-voltage control module is used for controlling whether the controller works or not, the power supply module is used for supplying power to the controller and the power measurement module, and the control system ensures the work of the microwave generator.

The second embodiment:

as shown in fig. 1, the present embodiment discloses a control system for a microwave generator, which includes a controller, a low voltage control module, a power measurement module, and a power supply module, where the low voltage control module, the power measurement module, and the power supply module are respectively electrically connected to the controller; the low-voltage control module comprises a power supply control contactor, a first power supply switch, a second power supply switch and an emergency stop switch, wherein a wire connected from a power supply end is connected with the power supply controller in series; the power supply module comprises a direct-current switching power supply, and an electric wire connected from the direct-current switching power supply is connected with a power terminal of the controller; the power measurement module is electrically connected with a wire outlet end of the direct-current switch power supply, a mutual inductor port of the power measurement module is electrically connected with the microwave generator, and an output port of the power measurement module is electrically connected with the controller; the controller is electrically connected with the microwave generator.

As shown in fig. 2, the circuit board of the controller has 8 microwave output connection terminals, 2 cooling fan control terminals, and 8 over-temperature protection terminals, wherein the 8 microwave output connection terminals and the 8 over-temperature protection terminals are in one-to-one correspondence, the 2 cooling fan control terminals are electrically connected to the cooling fan of the microwave generator, and the microwave output connection terminals are electrically connected to the microwave generator. 8 over-temperature protection terminals are electrically connected with the power supply module.

The circuit board of the controller is also provided with a built-in RS-485 terminal, the built-in RS-485 terminal comprises an SG terminal, an SDB terminal, an SDA terminal, an RDB terminal and an RDA terminal, the SDB terminal is electrically connected with the RDB terminal, and the SDA terminal is electrically connected with the RDA terminal; the SG terminal, the SDB terminal, the SDA terminal, the RDB terminal and the RDA terminal are respectively and electrically connected with the low-voltage control module.

As shown in fig. 2, the circuit board of the controller further has three power output terminals and two power input terminals, the two power input terminals are electrically connected to the power supply module, and the three power output terminals are electrically connected to the microwave generator. Two cooling fans of the two microwave generators are respectively connected with a contactor in series and then electrically connected with a cooling fan control terminal, and the microwave generators are respectively connected with the contactor in series and then electrically connected with a microwave output wiring terminal.

In the embodiment, the power measurement module is used for monitoring the working condition of the microwave generator, the low-voltage control module is used for controlling whether the controller works or not, the power supply module is used for supplying power to the controller and the power measurement module, and the control system ensures the work of the microwave generator.

The third embodiment is as follows:

on the basis of the first and second embodiments, the present embodiment discloses a mounting structure of a microwave generator.

The plurality of microwave generators are electrically connected with the same control system, the control cabinet with the control system is arranged on the bank side of the river channel, and a waterproof insulating structure is arranged at the connection part of wires connected with the microwave generators. The microwave generators are arranged on the first river side wall or the second river side wall of the river channel in two groups, the bottom surface of each microwave generator is placed on the cobbles, and the microwave generators on the first river side wall and the microwave generators on the second river side wall are installed in a staggered mode from upstream to downstream; the river channel consists of a river bottom, a first river side wall and a second river side wall, wherein the first river side wall and the second river side wall are positioned on two sides of the river bottom in the width direction.

The water inlet of the microwave generator is arranged on the top surface, the water outlet of the microwave generator is arranged on the side surface, the microwave generator is submerged in river water in a river channel, the river water enters the interior from the water inlet on the top surface of the microwave generator, and the river water is bent by 90 degrees and then is discharged to the river channel from the water outlet on the side surface of the microwave generator; the water outlet of the microwave generator on the side wall of the first river is opposite to the side wall of the second river, and the water outlet of the microwave generator on the side wall of the second river is opposite to the side wall of the first river.

Claims (6)

1. A control system for a microwave generator is characterized by comprising a controller, a low-voltage control module, a power measurement module and a power supply module, wherein the low-voltage control module, the power measurement module and the power supply module are respectively and electrically connected with the controller;

the low-voltage control module comprises a power supply control contactor, a first power supply switch, a second power supply switch and an emergency stop switch, wherein a wire connected from a power supply end is connected with the power supply controller in series;

the power supply module comprises a direct-current switching power supply, and an electric wire connected from the direct-current switching power supply is connected with a power terminal of the controller;

the power measurement module is electrically connected with a wire outlet end of the direct-current switch power supply, a mutual inductor port of the power measurement module is electrically connected with the microwave generator, and an output port of the power measurement module is electrically connected with the controller;

the controller is electrically connected with the microwave generator.

2. The control system for the microwave generator according to claim 1, wherein the circuit board of the controller has 8 microwave output connection terminals, 2 cooling fan control terminals, and 8 over-temperature protection terminals, wherein the 8 microwave output connection terminals and the 8 over-temperature protection terminals are in one-to-one correspondence, the 2 cooling fan control terminals are electrically connected to a cooling fan of the microwave generator, and the microwave output connection terminals are electrically connected to the microwave generator.

3. The control system for a microwave generator according to claim 2, wherein 8 over-temperature protection terminals are electrically connected to the power supply module.

4. The control system for the microwave generator according to claim 2, wherein the circuit board of the controller further has a built-in RS-485 terminal thereon, the built-in RS-485 terminal includes an SG terminal, an SDB terminal, an SDA terminal, an RDB terminal, and an RDA terminal, the SDB terminal is electrically connected to the RDB terminal, and the SDA terminal is electrically connected to the RDA terminal;

the SG terminal, the SDB terminal, the SDA terminal, the RDB terminal and the RDA terminal are respectively and electrically connected with the low-voltage control module.

5. The control system for a microwave generator according to claim 4, wherein the circuit board of the controller further has three power supply output terminals and two power supply input terminals, the two power supply input terminals are electrically connected to the power supply module, and the three power supply output terminals are electrically connected to the microwave generator.

6. The control system for a microwave generator according to claim 2, wherein the two cooling fans of the two microwave generators are electrically connected to a control terminal of the cooling fan after being connected in series with the contactor, respectively, and the microwave generators are electrically connected to the microwave output terminals after being connected in series with the contactor, respectively.

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